US6831202B2ExpiredUtilityPatentIndex 74
Compositions comprising octamantanes and processes for their separation
Est. expiryJan 19, 2021(expired)· nominal 20-yr term from priority
C07C 4/00C07C 23/20C08G 61/00C07C 7/04C07C 17/395B82Y 10/00C07C 13/64C08G 83/00C07C 17/10B82Y 30/00C08L 65/00C07C 17/16C07C 7/12C07C 211/50C07C 205/05C08G 61/02C07C 47/347C07C 2603/90C07C 7/135C07C 49/423C07C 17/383C07C 39/17
74
PatentIndex Score
9
Cited by
55
References
39
Claims
Abstract
Disclosed are compositions comprising one or more octamantanes. Specifically disclosed are compositions comprising 25 to 100 weight percent of one or more octamantanes. Also disclosed are novel processes for the separation and isolation of octamantane components into recoverable fractions from a feedstock containing at least a higher diamondoid component which contains one or more octamantane components.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A composition comprising diamondoids wherein at least about 25 weight percent of the diamondoids are one or more octamantane components.
2. A composition of claim 1 wherein from 50 to 100 weight percent of the diamondoids are one or more octamantane components.
3. A composition of claim 1 wherein from 70 to 100 weight percent of the diamondoids are one or more octamantane components.
4. A composition of claim 1 wherein from 95 to 100 weight percent of the diamondoids are one or more octamantane components.
5. A composition of claim 1 wherein from 99 to 100 weight percent of the diamondoids are one or more octamantane components.
6. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are a single octamantane component.
7. The composition of any of claims 1 - 5 wherein the one or more octamantane components are isolated optical isomers.
8. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are isomeric octamantane components.
9. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are one or more isomeric octamantane components represented by the formula C 33 H 36 .
10. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are one or more isomeric octamantane components represented by the formula C 34 H 38 .
11. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are one or more isomeric octamantane components represented by the formula C 36 H 40 .
12. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are one or more isomeric octamantane components represented by the formula C 37 H 42 .
13. The composition of any of claims 1 - 5 , wherein the one or more octamantane components are one or more isomeric octamantane components represented by the formula C 38 H 44 .
14. The composition of any of claims 1 - 5 wherein the octamantane components comprise unsubstituted octamantane components.
15. The composition of any of claims 1 - 5 wherein the octamantane components comprise substituted octamantane components having from 1 to 10 alkyl substituents.
16. A composition comprising at least about 10% by weight of one or more octamantane components.
17. The composition of claim 16 containing from 50 to 100% by weight of one or more octamantane components.
18. The composition of claim 16 containing from 70 to 100% by weight of one or more octamantane components.
19. The composition of claim 16 containing from 95 to 100% by weight of one or more octamantane components.
20. The composition of claim 16 containing from 99 to 100% by weight of one or more octamantane components.
21. The composition of claims 16 - 20 wherein the one or more octamantane components are a single octamantane component.
22. The composition of claim 1 , wherein the one or more octamantane components are in crystalline form.
23. A process for recovering a composition enriched in one or more octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane components;
b. removing from the feedstock a sufficient amount of nonoctamantane components having boiling points less than the lowest boiling point octamantane component under conditions to form a treated feedstock enriched in octamantane components which can be recovered;
c. recovering a composition enriched in one or more octamantane components from said treated feedstock formed in b) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
24. A process for recovering a composition enriched in octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane components including nondiamondoid components;
b. removing from the feedstock a sufficient amount of nonoctamantane components having a boiling point less than the lowest boiling point octamantane component under conditions to form a treated feedstock enriched in octamantane components which can be recovered;
c. thermally degrading said treated feedstock to pyrolyze at least a sufficient amount of nondiamondoid components therefrom under conditions to form a thermally treated feedstock retaining recoverable amounts of octamantane;
d. recovering a composition enriched in one or more octamantane components from said thermally treated feedstock formed in c) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
25. A process for recovering a composition enriched in one or more octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane components including nondiamondoid components;
b. thermally degrading said feedstock to pyrolyze at least a sufficient amount of nondiamondoid components therefrom under conditions to provide a thermally treated feedstock retaining recoverable amounts of octamantane;
c. removing from the thermally treated feedstock a sufficient amount of nonoctamantane components having a boiling point less than the lowest boiling point of octamantane component under conditions to form a treated feedstock enriched in octamantanes components which can be recovered;
d. recovering a composition enriched in one or more octamantane components from said treated feedstock recovered in c) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
26. A process for recovering a composition enriched in one or more octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane components;
b. fractionating the feedstock to form one or more cuts enriched in materials having boiling points in the range of from just below the boiling point of the lowest boiling octamantane component to just above the boiling point of the highest boiling octamantane component;
c. recovering a composition enriched in one or more octamantane components from said one or more cuts formed in b) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
27. A process for recovering a composition enriched in one or more octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane components including nondiamondoid components;
b. fractionating the feedstock to form one or more cuts enriched in materials having boiling points in the range of from just below the boiling point of the lowest boiling octamantane component to just above the boiling point of the highest boiling octamantane component;
c. thermally degrading one or more cuts said to pyrolyze at least a sufficient amount of nondiamondoid components therefrom under conditions to form one or more thermally treated cuts retaining recoverable amounts of octamantane;
d. recovering a composition comprising one or more octamantane components from one or more said thermally treated cuts formed in c) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
28. A process for recovering a composition enriched in one or more octamantane components which process comprises:
a. selecting a feedstock comprising recoverable amounts of octamantane components and nonoctamantane compounds including nondiamondoid components;
b. thermally degrading said feedstock to pyrolyze at least a sufficient amount of nondiamondoid components therefrom under conditions to provide a thermally treated feedstock retaining recoverable amounts of octamantane;
c. fractionating the thermally treated feedstock to form one or more cuts enriched in materials having boiling points in the range of from just below the boiling point of the lowest boiling octamantane component to just above the boiling point of the highest boiling octamantane component;
d. recovering a composition enriched in one or more octamantane components from one or more cuts formed c) above with one or more additional separation techniques selected from the group consisting of chromatographic techniques, thermal diffusion techniques, zone refining, progressive recrystallization and size separation techniques.
29. The process according to any of claims 26 - 28 wherein said boiling point range is a range having atmospheric equivalents of between about 370° C. to about 610° C.
30. The process according to any of claims 23 - 28 wherein said separation technique is a chromatographic technique.
31. The process according to claim 30 wherein said chromatographic technique is selected from the group consisting of liquid chromatography, preparative gas chromatography and high performance liquid chromatography.
32. The process according to claim 30 wherein said additional separation technique is high performance liquid chromatography comprising one or more high performance liquid chromatography columns.
33. The process according to claim 32 wherein the high performance liquid chromatography columns are selected to have a different specificity to the octamantane components.
34. A product prepared by the process of claim 23 .
35. A product prepared by the process of claim 24 .
36. A product prepared by the process of claim 25 .
37. A product prepared by the process of claim 26 .
38. A product prepared by the process of claim 27 .
39. A product prepared by the process of claim 28 .Cited by (0)
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